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TOCSIN 650 SERIES
A d d r e s s a b l e D e t e c t o r C o n t r o l P a n e l
O p e r a t i o n a n d M a i n t e n a n c e
V 3 . 1
Triton HouseCrosby StreetStockportSk2 6SHEngland
Tel: +44 (0)161 483 1415Fax: +44 (0) 161 484 2345
Email: sales@internationalgasdetectors.co.ukWebsite: www.internationalgasdetectors.co.uk
Addressable2-Wire
FS646773
REF: T650 V3.1
EMS696504
2
Table of Contents
Help Section
Overall Dimensions
Interface Wiring
Specification
CE Declaration
Operating System
15
22
19
28
9
26
17
25
13
10
4
14
5
7
12
23
27
27
Addressable Detector Node
Highway Hub Controller Overview
Relay Card Overview
Relay Card Setup
User Actions
Overview
Menu overview
Putting Into Service
New Setup Sequence
The Sensor ZERO Function
Checking Reaction Time
The Sensor CALIBRATE Function
Troubleshooting
Standard Accessories Supplied
Accessories Available
2 Core Cable Connection (No Polarity)
RGB Backlit Display
It is recommended that control panels and all connected detectors are commissioned upon installation and serviced every 6 months by an IGD trained technician. IGD can offer full training to enable your staff to do the servicing or offer a competitive service from our fleet of service engineers.
This product must be earthed in accordance with local safety regulations.
Standard options are indicated in the basic specifications on page 4
Up to 128 Detector Nodes
Main Features
Colour Touch Screen
° °The control panel may be stored at temperatures between 0 C and 55 C. If stored at low temperatures and then brought into a warmer environment, condensation may form on some components. In such a situation , this condensation should be allowed to evaporate prior to use of the equipment. If stored at high temperature, care should be taken to ensure that humidity condensation does not enter critical electrical components, for example the power supply.
Up to 350 Detecor Nodes750 Series
650 Series
Warnings and Performance Statements
The Tocsin 750 and 650 series control panels use the latest technology 2-wire addressable highways to control gas detectors and associated accessories. Providing an extremely flexible and low cost solution.
Internal or External Battery Backup
Cascade Panels as Master - Salve
Brief Introduction
Jog Wheel Interface
Service & Maintenance
The Control Panel leaves the factory configured for the supply voltage stated on the customers order.
Should the control panel be used in conjunction with portable generating equipment, care should be taken to ensure that the electrical supply is within the tolerance band described above.
oThe Control Panel is designed to operate within specification for ambient temperature between 0 C oand 55 C, relative humidity up to 95% ( non-condensing ). Sensor specifications may differ.
Do not use a Control Panel for protection applications that has not been calibrated. If calibration seals are missing from the control panel or have been tampered with or broken, then the control panel must be re-calibrated and sealed by a trained engineer.
Substances and interfering gases can cause adverse effects on the performance or electrical safety of the gas detection systems. Care should be taken to limit exposure to these poisoning substances, for further advice and information contact head office
The response time of the entire system is determined by the time of response of all the parts of the equipment within the gas detection system.
The relationship between the output signal and the gas concentration is linear, the control panel interprets the signal and the gas level is displayed on the HMI or RGB backlit display. IGD hold evidence of this linear performance which is available upon request.
We recommend users read the procedures described in BS EN 60079-29-2 for reference.
4
Basic Specification
Ambient Operating Humidity
150W PSU @ 230VAC Nominal150W PSU @ 110V AC Nominal
300W PSU
Ambient Operating Temperature
Protection
(Range Dependant)Displayed Detector Resolution
Connected Hubs
CE Declaration
Pressure Limits
Connected devices
Display
Warm up time
Max Power Consumption
EMC Compatibility
Air Velocity
88 to 127 V AC 50/60Hz by selection190 to 260V AC 50/60Hz by selection
88 to 260V AC 50/60Hz by selection
1% LEL
2 x 8 LCD Display and Jog Wheel
0.1ppm
Full EC Declaration appears on Page 4
0 to 55 Degrees Centigrade
IP ratings do not imply that the equipment will detect gas during and after exposure to these conditions.Calibration and maintenance may be required more frequently and should be assessed based upon exposure.
1%Vol
Cascade hub optional
Ip54
5-95% RH Non-Condensing (see sensor data)
0.1% Vol
2 Watts
15 minutes
800 to 1200mBar (80 to 120kPa)
see installer guide
Up to 128 Devices on single hub max 350 input channels
0-6M/S refer to installers guide for allowable orientation
1 ppm
EC Declaration of ConformityDeclares that the product listed as:
Addressable Gas Detection Control Panel
TOCSIN 650
Issued by: Oliver IGD Limited, Stockport, SK2 6SH , United Kingdom
Name: Andrew J Collier M.I.O.D
Position: Managing Director Date: 1 January 2019 Declaration Ref: T650-DEC-3
Signature: Declaration of Conformity in accordance with EN ISO/IEC 17050-1:2004
Are in conformity with the provisions of the following European Directive(s) when installed, operated, serviced and maintained in accordance with the installation and operating instructions contained in the product documentation.
And that the standards and/or technical specifications referenced below have been applied or considered.
2004/108/EC EMC Directive 2006/95/EC Low Voltage Equipment Directive (note not applicable to 24V DC Powered Versions)
EN 50271:2001
EN 61779-1:2000
EN 61000-6-2: 2005EN 61000-6-4/A1: 2011EN 61000-3-2: 2014EN 61000-3-3: 2013
Technical File Reference
EMC Limits. Limits for harmonic current emissions (equipment input current ≤ 16 A per phase)
Electrical apparatus for the detection and measurement of combustible gases, toxic gases or Oxygen: requirements and tests for apparatus using software and or digital technologies. Excluding requirements for SIL
EMC Generic standards. Immunity for industrial environments
Electrical apparatus for the detection and measurement of flammable gases, general requirements and test methods.
EMC Generic standards. Emission standard for industrial environments
EMC Limits. Limitation of voltage changes, voltage fluctuations and flicker in public low-voltage supply systems, for equipment with rated current ≤ 16 A per phase
T650-TF9
Issuers name and address:
Triton House
United Kingdom
Oliver IGD Limited of
Crosby St, Stockport, SK2 6SH
EMC Tested by:
Concorde WayOctagon HouseTUV - SUD
PO 15 5RL Fareham
TUV Certificates and reports can be checked on-line at https://www.tuev-sued.de/industry_and_consumer_products/certificates
Oliver IGD Limited Operate an Independently assessed ATEX/IECEX QAN.
United Kingdom
Quality Assurance Notification Number:16PQAN0014
2585
Wrexham, LL13 9UZ
Units 16-18 Abenbury Way,
Quality Assurance Certificate Number
Wrexham Industrial Estate,
Select Oliver IGD when prompted on the website to view certificates
Certificate NumberE8N 15 05 91327 004
FS0646773 & EMS696504
Oliver IGD Limited operate an independently assessed ISO9001:2015 Quality Management and ISO14001:2015 Environmental Management System
Certificate Numbers
BSI Assurance UK LTD,London, W4 4ALUnited Kingdom
6
Gas detection systems must be correctly specified, installed and maintained in order to be effective.
Anyone undertaking elements of this work should have access to the necessary equipment and be able
to demonstrate competence. This will usually mean having passed a training competency course.
International Gas Detectors run training courses for safety survey, specification , installation and
service aspects of hazardous gas detection systems. In addition IGD can supply test equipment and
calibration gases necessary to undertake this work.
1. A zero grade gas usually instrument air or Nitrogen and a suitable calibration gas mixture is required.
Please the following points
2. The correct gas adaptors must be used to apply gases to detectors when zeroing and calibrating.
Incorrect application of gases can affect calibration results
3. Use equipment and gases traceable to a national standard. Any calibration will only be as good as
the equipment and materials used.
4. IGD supply fixed flow regulators for use with IGD calibration gas bottles which supplies gas at
0.5L/Min
Important Notes
Panel Options
TOCSIN 750 Series Controller
TOCSIN 750 Series AnnunciatorOptions With:Display, Relay Output, Digital orAnalogue Input, Flammable Gas Detector
TOCSIN 750 Series DetectorsFlammable Gases, Toxic GasesOxygen
TOCSIN 102 Series Detectors 2-WIREFlammable Gases, Toxic GasesOxygen For ATEX Applications
Part Number
TOC-650-24
TOC-650-150
TOC-650-150BB
TOC-650-150B1
TOC-650-300
TOC-650-300B1
Description
24V DC Control Panel No Internal PSUStandard Features inluding2 x 8 RGB Display and Jog Wheel4 Relays, 4 Highways
110/230V AC Control Panel 150W PSUStandard Features inluding2 x 8 RGB Display and Jog Wheel4 Relays, 4 Highways
110/230V AC Control Panel 150W PSUStandard Features inluding2 x 8 RGB Display and Jog Wheel4 Relays, 4 HighwaysBuilt in 1.2AH Battery Backup
110/230V AC Control Panel 150W PSUStandard Features inluding2 x 8 RGB Display and Jog Wheel4 Relays, 4 HighwaysBuilt in 5AH Battery Backup
110/230V AC Control Panel 300W PSUStandard Features inluding2 x 8 RGB Display and Jog Wheel4 Relays, 4 Highways
110/230V AC Control Panel 300W PSUStandard Features inluding2 x 8 RGB Display and Jog Wheel4 Relays, 4 HighwaysBuilt in 5AH Battery Backup
TOCSIN 650 PHYSICAL
Installation Cables
FRONT VIEW
382mm
292m
m
72mm
120.5mm
134m
m
20mm
48.5mm
Front Face
Top Face
Side Face
56.5mm30mm10 off 20mmCable Entries
360mm
Addressable2-Wire
Supported Installation Cables 2 Core 1.5mmSQ or 2.5mmSQ See IGD Cable System Calculator
Typically SWA, MICC, FP200, SY, CY, System cables must be screened, refer to installers guide
General
Power can be taken from system modules for small current devices such as LED beacon sounders and is limited to 100mA per module
Highways are fused at 2A, observe load calculations when planning, use boosters where necessary
Observe interface requirements for relays, fitting freewheel diodes and snubbers as indicated
Note cables run with modules sequentially wired.
End of line terminators, supplied with panels must be fitted for correct operation
8
Installation Guide
Failure to follow correct installation may result in poor performance and/or damage to system
components.
Copies of the installation guide are available in the downloads section of our website. Always check
you are using the latest versions of the supplied manuals by checking on the IGD website.
Your 750 Series control panel has been supplied with a separate installation guide. Please read this
before installing your system. The Installation guide provides information for correct cable selection,
how to correctly install cables and devices and ensure correct cable segregation. It is important to
read and understand this document prior to installation.
2-WIRE SYSTEMS
2 - W i r e G a s D e t e c t i o n S y s t e m I n s t a l l e r s G u i d e V x x
OLIVER IGDTriton HouseCrosby StreetStockportSK2 6SHEngland
Tel: +44 (0)161 483 1415Fax: +44 (0) 161 484 2345
Email: sales@internationalgasdetectors.co.ukWebsite: www.internationalgasdetectors.co.uk
Addressable2-Wire
Version 2.0T750-INST
International Gas Detectors
IGD-Academy
IGD’s On-Line training academy is available to support your companies activities. The Academy features a range of CPD approved training courses and ‘how to’ videos.
The academy can be found at: https://igdacademy.internationalgasdetectors.com
Please note that some courses are only available on a request basis. If you require a request only course please email to request your account and course.sales@internationalgasdetectors.com
T650 Control Panel & 2 Wire Hub Controller PCB Features
Power in24V DC
Battery ConnectionFor Battery Backup
EthernetRs485 Remote(Modbus etc)
DisplayColour HMI
Display TOC-650 (2x8 LCD)Fault Relay
Alarm Relay 1
Alarm Relay 2
Alarm Relay 3
Direct Beacon-Sounder O/P
Inputs for E-stops/Fire
4 off 2 Wire Ports Each supporting 32 Devices 128 Devices in Total
Two display options, either 650 style with jog wheel
or
HMI Style touch screen display
Note both displays can be fitted at the same time which can allow the HMI display to be remote from the panel and used as a system repeater or mimic
L1
L1
L1
L1
L1
L2
L2
L2
L2
L2
Hub cards can be cascaded to add more ports if required. Note This is Polarity Sensitive And Must be Connected L1 to L1 and L2 to L2. Failure to observe polarity when cascading can result in damage to the card
10
Tocsin 750 Addressable Relay Card Setting Relay Addresses
Press and hold the DOWN button until all LED's are OFF. Release the button and the address currently set will be illuminated on the bottom five LED’s.
Use the UP and DOWN buttons to alter the address set as indicated in the table below
To exit press and hold UP or DOWN button until all LED’s are off then release.
DOWNBUTTON
UP BUTTON
Each Addressable relay card must have its own unique base address. This can be set on the card and is indicated below. The relays are then addresses/numbered from that base address. The example below shows a card with a default base address of 101
101
102
103
104
105
106
107
108
A0A4
100
108
116
124
101
109
117
125
102
110
118
126
103
111
119
127
104
112
120
128
105
113
121
129
106
114
122
130
107
115
123
131
1 2 3 4 5 1 2 3 4 5
NOTE: WHEN SETTING ADDRESSES YOU CANNOT HAVE TWO DEVICE ADDRESSES SET THE SAME ON THE SAME ADDRESSABLE HIGHWAY or DEVICE.
Tocsin 650/750 Addressable I/O Card
Pin 1 Line 1Pin 2 Line 2
Pin 2 Line 2Pin 1 Line 1
Common
Relay Terminals
Normally Closed
Normally Open
Relay status LED, ON when Energised
24V DC
0V DCPower out for use in conjunction with relays
First Relay onThe Card (relaysnumber fromthis one).Base Address set up
LED's and interface for the relay card
In all Cases:
Relay contact ratings.
5A @ 250V AC Non-Inductive5A @ 30V DC Non-Inductive
Spike suppression must be fitted
Note that FAULT relays are normallyenergised on power up.
0V DC
24V DC
~ ~
A1
A1
A2
A2
Example fit protection diodes when switching external DC loads.
Example fit protection supressors when switching external AC loads typical device Farnell Ref 1438460
2-Wire Highway Connections
10 off I/O Ports
12
Tocsin 650/750 Addressable I/O Card Input Ports
4-20mA Signal24V DC
4-20mA Signal24V DC
0V DC
Loop Powered Detectors
3 Wire Detectors
Temperature
Typical IGD Loop Powered 4-20mA Detectors
PressureCOH2SOxygenHCN
NO2H2CL
HCLNO
SiH4O3
Typical IGD Loop Powered 4-20mA Detectors
Infra Red Based DetectorsPID Based Detectors
Pellistors Based Detectors
Thermal Conductivity
Relay cards also have analogue and digital inputs that can be used to read data onto the system from external devices. Setup of the inputs, type, range, addressing etc is controlled via IGD’s Android Apps. Wiring options are indicated below. Note the differences between Version 1 and 2 PCB assemblies.
Note 1
Note 2
Note 2
Note 1
Note 3
These Ports are not used on version 1 PCB assemblies limiting the PCB to a maximum of 6 analogue inputs or 8 digital inputs including ports 9 and 10.
If extended 4-20mA devices are connected, they maybe floating ground type.
These Ports are designated to be digital inputs only.
10
9
8
7
6
5
4
3
2
1
Module PCB Features
The following diagram indicates features available on the TOC-750 ‘module’ PCB. Please note
that failure to observe and make correct connections or exceed ratings may result in damage to
the PCB.
Ribbon Cable Connection For TOC-750Annunciator Display and Options
Local LED IndicationsAnd Up/Down Interface Buttons
Pellistor (Catalytic)Flammable GasDetector InterfaceSuitable for IGDTypes MK3, MK6, MK7
2-Wire Highway ConnectionTo Next Device
Multi-Function I/O Port 1Solid State Output or4-20mA Input or TOC-10 IP or Gas Meter
Multi-Function I/O Port 2Solid State Output or4-20mA Input or TOC-10 IP or Gas Meter
Connection Point ForIGD Infra-Red, Toxic, PIDor Oxygen Gas Detectors
2-Wire Highway Connection
To Next Device
PYW
SPCO RelayOutput
DVM Test Point + DVM Test Point -
Housing
Sealing
Environment
Temperature
Voltage
Communication
Display
Analogue I/P
Sounder
Digital Input
Relay
Pellistor Port
Digital Output
Comm Port
2
3
4
5
6
7
1
Supports IGD Infra-Red, PID, Toxic and Oxygen Gas Detectors
TOC-750 Series ABS or Copper Free Aluminium For ATEX Versions
IP65 (using suitable glanding & splash guard) for TOC-750, IP68 for ATEX Versions
0 -95% RH Non Condensing
Not Polarity Dependant
12-28V DC
Suitable for use with TOC-10 Link Function, switch/call point, totalising count
85dB (Option for TOC-750 Annunciators)
0-55 Deg C
IGD 2-Wire Highway Operating IGD Sentinel+ Protocol
5A Non Inductive Loads 230V AC
24V DC 100mA Combined For Both Outputs Typically for LED Beacon Sounders
4-20mA, selectable range, units and tag information
Option to Interface to MK3, MK6 or MK7 Pellistors
2 x 8 Programmable LCD with RGB Backlight (Option for TOC-750 Annunciators)
Module PCB Basic Interface Specifications
2
7
5
6
4
3 3
1 1
14
User Actions....Day to Day Operation
1=FLAM10% LEL
1=FLAMalarm 1
1=FLAMFLT UND
To access the display and switch the backlight on rotate the jog wheel
In Alarm Condition
In Fault Condition
ChannelNumber
ChannelNumber
ChannelNumber
ChannelGas Type
ChannelGas Type
Gas or ReadingType
Current ChannelReading
The back light turns on making it easier to see the channel information. Note that each channel will be displayed in turn as indicated by rotating the jog wheel
The back light will flash red and the display will indicate which alarm level and which channel is in alarm. The sounder will also activate. Pressing the button will silence the sounder. If the gas is still breaching the alarm threshold it will not be possible to reset the alarm
Once fully installed the TOC-650 controller will continuously monitor connected gas detectors and
sensors and compare current values with any set alarm thresholds. The display will cycle to display
each channel in turn.
In the event of alarm or fault, CALL FOR SERVICE.The owner operator is not usually a gas engineer or competent person as defined by Health and Safety guidelines. If there is any doubt call
your service company and get it checked.
Alarm 1&2
In alarm mode the RED alarm led will either be flashing for alarm level 1 or solid for alarm level 2. The bottom line of the display will indicate: Alarm 1 Alarm 2
In FAULT mode the Yellow fault led will be on. The bottom line of the display will indicate as follows:
Alarm Level
FLT UNDFLT OVR
FLT COM
FLT SEN
communication error to sensors Sensor ErrorSensor Over RangeSensor Under Range
Controller Interface Overview
Colour Backlit LCD DisplayFlashes Red on alarmFlashes Yellow on Fault DetectionBlue during menu operation.
Internal Sounder 85dBSounds on alarm 1 or 2 activationand can be muted
Alarm Indicator LED (Red)
Continuous on Alarm Level 2Flashes on Alarm Level 1
Power LED (Green)
Selector Button Selector Jog Wheel
WARMUP600s
o Indicate board tested status (end user should see “PASSED” with a green backlight)
• Initial power up sequence is:
o Display then shows Software version, Checksum and date, Display version, display checksum and date, connected sensor info
o Countdown
Typical display during warm up
Fault Detected Indicator LED (Yellow)
16
1=FLAMM10% LEL
0PASSWORD
100PASSWORD
50PASSWORD
25PASSWORD
To Access the Display rotate the Jog Wheel
Data entry and menu selection using the password entry as an example.
To access the menu system press the button until the message “Release button and enter password”message is displayed.
ChannelNumber
Gas or ReadingType
Password Number You areEntering. Rotate the jogwheelclockwise to increment orAnticlockwise to decrement
With the correct password displayed press the centre selection buttonto go to the menu or function.
Current ChannelReading
Inhibit the control panel forup to 60 minutes. Use this option if calibrating or accessing the connected devices using a laptop running IGD Configurator software. Inhibiting the panel means it stops communicating to connected devices this prevents alarms or data clashes during PC access.
Zero and Calibrate Sensors. Setup alarm levels and relay actions.
Test I/O Functions, FIND connected devices. Setup channels, Modbus addressing etc.
INHIBIT USER MENUCALIBRATIONS & ALARMS
ENGINEER MENUPANEL TEST & SETUP
TOC-650 Menu Overview
0000PASSWORD
FIND SEN1 of 12
ZERO1 of 9
SET TIME4 of 12
FIND RLY2 of 12
cal2 of 9
BL. TOOTH10 of 12
SEN INFO7 of 9
EXIT9 of 9
SET DATE5 of 12
DIAG3 of 12
SEN mS6 of 12
RLY mS7 of 12
CASCADE8 of 12
DISABLE3 of 9
USR MENU11 of 12
ABOUT8 of 9TEST RLY
9 of 12
CONTRAST4 of 9
VIEW EV5 of 9
CLEAR EV6 of 9
EXIT12 of 12
50 100
Engineer Menu Options User Menu Options
Provides access for control panel set up and diagnostic functions
Provides access for maintenance functions
Use this option to FIND connected Input devices.
Use this option to FIND Relay Outputs.
Use to Access Device Diagnostics
Set the System Time
Set the System Date
Move to the USER (100) Menu
Use to enable/Disable Reset Bluetooth
Use to Energise/De-energise relay outputs
Use this option to ZERO connected devices
Use this option to CALIBRATE connected devices
Disable a Device
Use this option to set the screen contrast
Select to View the Event Log
Select to Clear the Event Log
Select to View Information About a sensor
Use to View Software Versions
Select to Exit Back to Normal operation
Select to Exit Back to Normal operation
Use to check the comms response time for sensors. Should be less than 10mS
Use to check the comms response time for relays. Should be less than 10mS
Use to set hub cascading options
18
TOC-650 Menu Overview
0000PASSWORD
RESET1 of 8
Z CVolts4 of 8
SET DFLT2 of 8
Z BATTERY5 of 8
DISP TST3 of 8
USR MENU6 of 8
ENG MENU7 of 8
EXIT8 of 8
Production Menu Options
Provides access for control panel set up and diagnostic functions
Use this option to Reset the Hubcard (System Re-boot)
Reset Hubcard to defaults
Display Self Test
Not Used
Use to Move to the Engineer (50) Menu
Use to Move to the User (100) Menu
Exit to Normal Operation
345
Not Used
Note panels are usually supplied pre-configured so this many not be necessary, check shipping documentation
It is recommended to follow the set up sequence below when configuring and installing a control panel from new.
Perform a sensor FIND and automatically install detector data. Engineers Menu .... Find Option
With Sensors and Relays Installed download the panel setup to IGD’s Panel Seup App to configure the system. It will be necessary to upload this once completed and re-start the controller for it to take effect.
Perform a Relay FIND
Allow the system to run for at least an hour to allow detectors to fully stabilise to the site conditions.
Should any detectors require re-calibration
Detectors are supplied pre-calibrated. Follow the Bump Text video on the IGD online Academy to check both detector calibration and to prove the system programmed cause and effect. Ensure all interfaces to third party devices and systems function as required. Note that individual relays can be directly energised and de-energised to aid checking
Ensure there are no indicated system errors in normal operation.
Zero each connected detector. User Menu ZERO
Calibrate each detector. User Menu CALibrate
Note IGD calibration and gas adaptor kits are available and necessary to perform calibration and bump testing. Record all results for traceability.
find sen1 of 12
find rly1 of 12
zero1 of 15
cal2 of 15
Putting Into Service
Note that this product should be supplied via a fused spur. Ensure cables used are suitable for both their intended area of operation and load capability. This product should only be installed by a competent person.
If you are uncertain how to zero/calibrate or locate your gas detectors and system components then use IGD’s online training academy.
If your application is safety related you must ensure you are a competent person with demonstrable training. If in doubt check with IGD for help and support.
Follow the 2-Wire Installation guide
if you don't have a copy of this download it from www.internationalgasdetectors.com
This provides location as well as cabling/installation guidance.Failure to observe correct installation can have an adverse affect on system operation and performance
To set alarm levels and programme the required cause and effect you will need to access the controller using IGD’s Panel Setup App for Android. Download the Panel Setup App from the Google Play Store to a suitable blue tooth enabled tablet or Phone. Android 4.1.1 or later operating system and min 7” display recommended.
TEST RLY9 of 12
20
WARMUP600s
With power applied the system should undertake its power up sequence and
then commence a warm up period. The warm up period is there to allow
connected detectors to stabilise before operation. Note that certain detector
types, Oxygen sensors in particular may take up to 2 hours to fully stabilise.
During the warm up period check that each connected detector or device has power and
communication. The following diagram shows the three main terminal PCB types for detectors and I/O
interface nodes and the relevant check points.
Warm Up Period
In normal operation mode the TOC-650 communicates to each detector or node in turn and displays the
data on screen. Pressing the button once will activate the back light, each button press then cycles the
display through each channel.
For example a three channel system with a Flammable gas detector, a Carbon Monoxide Detector and
an Oxygen detector would read as:
With sensors connected and after the TOC-650 controller has completed its warm up the operating
system will go to normal operation mode.
Normal Operation
1=FLAM0% LEL
2 = CO0 ppm
3 = O221% VOL
Channel Number Gas Type
Reading Units
Putting into Service Test Schedule
In conclusion by following the steps discussed your checklist for putting into service should be:
2
3
4
1
9
6
8
7
10
11
5
Ensure the mains power supply is via a fused spur and installed in accordance with local
installation wiring regulations.
Check cable and glands are of suitable type for both the area of application and load carrying
capacity.
After warm up is complete use a suitable known calibration gas to check the detector calibration
reading. Adjust if necessary (see later “zero and calibration function” section).
Complete any site paperwork as necessary and instruct the site responsible person regarding
day to day operation (see later section “ user operation “).
Ensure terminations via glands provide a positive seal.IGD Gland packs PN TOC-GLAND
achieve minimum requirements when correctly installed
Download the controller setup and save as a backup for the system.
Bump Test to check programmed cause and effect operates as required
Check the shipping TOC-650 SET UP REPORT to check how the controller and interfacing
detectors and nodes have been configured. Ensure that the detector addresses match the
document and required site locations.
Leave all interfaces unplugged and check installation cabling terminations following IGD 2-Wire
Installers Guide, check website for latest revisions.
After warm up is complete use instrument air or Nitrogen as appropriate to check the detector
zero reading. Adjust if necessary (see later “zero and calibration function” section).
Power up the system. Check that all connected devices indicate that they have power and are
communicating correctly.
Allow at least 1 hour for the detectors to correctly warm up and stabilise.
During this period, if the relay outputs are being used check the cabling then plug in and test
using the TST RLY function.
In the event that the controller needs amendment to set up follow the instructions in the following sections.
c) Assigning relay outputs
d) Zero and Calibration Function (detectors)
a) Adding detectors or nodes to the controller or complete set up
b) Adding or changing alarm levels
e) Zero and Calibration Function (analogue output)
22
Sequence for a Complete New Setup
Then presuming the system is correctly installed and cabled the process would be as follows:
If you need to perform a complete new set up
1. Use the FIND command to discover connected devices and install them to the controller
2. Set up the required alarm levels and relay actions
3. Test using zero and calibration gases
The following dialogues describe each function to use
The FIND Commandfind
1 of 11
find1 of 11
findRelease
s=2 40%checking
1 = 4101found= 2
2 = 4101found= 2
2 = 4101Release
noRelease
yesRelease
saved=2passed
As previously described enter password mode and enter password 50 to gain access to the
engineers menu. The first menu option (menu option 1 of 11) is the FIND menu. To run this option
the detectors must be correctly connected to the controller and displaying green power LED function
as a minimum (some of the green power LED’s may be flashing if detectors already have
communication.) The FIND function then works in the following manner
Press and hold button until prompted to release. The system starts discovering connected devices
Display indicates devices found so far
Display indicates % progress
When the discovery process is complete the display indicates how many sensors have been found. The system also indicates the first found address. Each button press then indicates each found device address in turn.
To store or abort the data press and hold the button until prompted to release. The first option is NO to store data, rotating the jog wheel changes this to YES to store data and vice versa. With the desired option displayed press the select button.
If the YES option to store data was selected then the number of saved devices is shown on screen and passed of fail to indicate the status of the update
1
2
3
4
Relay Test
If the control panel has been shipped pre-configured then once correctly connected the system will be
operational. The controller should correctly cycle through each channel with no indicated errors.
The alarm relay outputs can now be connected (if they are being used). The relay outputs can be
forced on and off using the ‘test relay’ function (TEST RLY).
test rly13 of 12
This sequence first indicates if the zero operation passed or failed, then the new detector reading then the option to end and return to the engineer menu. This sequence effectively allows the engineer to observe the new detector zero point before exiting.
Bottled Nitrogen or Instrument grade zero air
Regulator to deliver a fixed flowrate (typically between 0.5 to 1 L/min)
Hose delivers zero gas to the detector. Note a test gas applicator is usually required. In some cases weather protection guards or the detector itself may include a gas applicator port. If not the correct calibration gas adaptor must be used.
Gas Detector ZERO Function
Detectors should always be zeroed first and then calibrated. Alarms should be isolated during this process. A
normal calibration sequence would consist of:
Do not rely on the ambient environment to provide a zero point, Nitrogen or Instrument air should always be used
as appropriate. If there is a background level of the target gas and a zero is performed then the zero point will not
be correctly set.
5. Apply a known calibration gas and calibrate the channel, observe and record the result.
2. Assess calibration point by applying a known calibration gas. and record
3. If the zero and calibration points are within +/-2% of range then take no further action. zeroing and calibrating a
detector that already reads correctly will not improve its performance. If either is out then proceed to step 4.
4. Apply a suitable zero gas and zero the channel, observe and record result.
Notes
All gas detectors will require periodic ZERO and CALIBRATION. The calibration interval depends on a number of
environmental factors such as: temperature variance, exposure to wind chill, rain, humidity changes and vibration
to list a few. As a guide line gas detectors should be checked at least yearly. As with any measuring instrument if
calibration is not held over the intervening interval then a shorter calibration interval may be required.
1. Assess zero reading in pre-zero condition and record by applying a zero gas typically Nitrogen or Instrument air
Select menu item 1 ZERO
To Zero the detector enter password mode
as previously described and enter
password 100 to enter the user menu.
The top line of the display shows the
current reading. The bottom line shows the
current option.
With zero gas flowing and the reading stable
press the button to select CONTINUE. Now
press and hold the button until prompted to
release to action the zero request.
zero1 of 10
8 PPMAbort
0 PPMContinue
ZEROPASSED
0 PPMCLICK TO
The display shows the result of the zero request, note that the actual zero and
calibration values are stored on the individual detector heads. When carrying out a
zero or calibration the controller sends the request to the detector head for action
and monitors the result. This means that detectors can be supplied pre-calibrated
The reading is now displayed so the result of the zero request can be observed.
The reading should be stable. Click the button to return to the previous menu.
Repeat the sequence if you are not within +/-2% of zero.
CalibrationZeroGasGas
20% LEL
24
The Sensor ZERO Function
Zero and calibration functions should only be undertaken by trained competent personnel. The effectiveness of a gas detection system is largely down to how well it is maintained and this means how well it is calibrated.
Regulator to deliver a fixed flowrate (0.5-1 L/min)
Oliver IGD P/N 5022001
Hose delivers cal gas to the detector. Note a test gas applicator is usually required. In some cases weather protection guards or the detector itself may include a gas applicator port.
ZERO
GAS
Cal Gas AdaptorEnsure it is correctlyfitted
GAS RECOMMENDED ZERO GAS
Apply zero gas to the detector.
It is important that the detector zero point is correctly set. It must be considered that there is the possibility that the gas to be detected is already present in the area of the detector. For this reason never zero on just the ambient surroundings.
There are two possibilities
A. confirm there is no gas present by using a portable detector
B. Use a suitable ZERO gas as follows.Zero gas should have a humidity between 0-90%RH
O2/CO2 NITROGEN
PELLISTOR INSTRUMENT AIR
TOXIC GASES NITROGEN
The following diagram shows a typical equipment set up.
Recommended Test 750 series Gas Applicators.
MK3 Gas Detector P/N 401101A
MK5 & MK6 Gas Detector P/N 401101E
TOC-750 Series
Tocsin 102 Series Detector P/N 401101A
IMPORTANT: Flow gas for a minimum of 60 Seconds. Some detectors with longer response times may take longer to stabilise.
Procedure for check reaction time to gas
Ensure detector is at zero +/- 1% LELUse standard IGD professional gas introduction kit with 2M hose.
Connect calibration gas but do not turn onUsing a stop watch turn on the calibration gas and time to 50% and 90% LEL
Time to 50% should be less than 30 secondsTime to 90% should be less than 60 seconds
Note on a 20% LEL bottle T50 point is 10% LEL and T90 point is 18% LELon a 50% LEL bottle T50 point is 25% LEL and T90 point is 45% LEL
replace non conforming sensors
Relative response to Methane @ 4.4% Vol = 100% LEL Equivalent to 55% LEL N-Butane
LEVEL TYPE RELAY EXIT
Once the alarm level has been set you then need to set the Alarm TYPE and decide which relay activates
once the set alarm level is breached. The following sequence continues from the previous page and
describes the set up sequences
To select an option rotate the jog wheel and press the selection button to select the required option
Top line indicates “select alarm type” Rotate the jog wheel to select the desired alarm type option. Press the selection button to select.
Rising Latching Alarm
Latching alarms remain set until the button is pressed to reset the alarm. The gas level must be below the alarm level threshold for the reset to operate. This type of alarm is typically used in safety applications. Where alarm is required in response to rising gas levels
Press and hold until prompted to release to select this option.
Rising alarms will automatically reset once the gas level falls below the alarm threshold. This type of alarm is typically used in control applications where action is required in response to rising gas levels.
Press and hold until prompted to release to select this option.
Rising Alarm Falling Latching Alarm
Latching alarms remain set until the button is pressed to reset the alarm. For a falling alarm the gas level must be above the alarm level threshold for the reset to operate. This type of alarm is typically used in safety applications for Oxygen deficiency monitoring where you are monitoring for a falling Oxygen level.
Press and hold until prompted to release to select this option.
Falling Alarm
Falling alarms will automatically reset once the gas level rises above the alarm threshold. This type of alarm is typically used in control applications where action is required in response to falling gas level (typical in Oxygen deficiency applications).
Press and hold until prompted to release to select this option.
Rising and Falling Non Latching Alarms Rising and Falling Latching Alarms
Alarm Set PointAlarm Set Point
Alarm O/P On
Re-Set Input On
Alarm O/P Off
Re-Set Input Off
5% of Alarm Set PointAlarm ActivatesAlarm Activates
10 Seconds
10 Seconds
Alarm Resets Indicates pressing the front panel ‘jog wheel’
Scroll to change selection
Select Alarm TypeSelect Alarm TypeSelect Alarm TypeSelect Alarm TypeRIS LAT RISING FALLINGFALL LAT
If alarm devices, output contacts or alarm signal outputs are provided as part of continuous duty gas detection equipment and are intended to operate when a potentially hazardous gas concentration is detected, they shall be of a latching type requiring a deliberate manual action to reset. If two or more alarm set points are provided, the lower may be non-latching - based on user preference. Alarms shall remain in operation while the alarm condition is still present, although audible alarms may be silenced if this audible alarm is not the only alarm.
26
Gas Detector CAL Function
Gas detectors must be calibrated with known calibration gases traceable to National Standards. As previously
discussed detectors require regular calibration. Calibration gases should have values chosen that either:
b) Are between 50 to 90% of the range of the detector. The detector measuring range will normally be marked on
the detector.
a) Are at the alarm set point to get maximum accuracy at this point
or
To CAL the detector enter password mode
as previously described and enter
password 100 to enter the user menu.
Select menu item 2 CAL
The top line of the display shows the current
reading. The bottom line shows the current
option.
With CAL gas flowing and the reading stable
press the button to select CONTINUE. Now
press and hold the button until prompted to
release to action the zero request.
CAL2 of 8
55 PPMAbort
55 PPMContinue
CALPASSED
50 PPMCLICK TO
The display shows the result of the cal request, note that the actual zero and
calibration values are stored on the individual detector heads. When carrying out a
zero or calibration the controller sends the request to the detector head for action
and monitors the result. This means that detectors can be supplied pre-calibrated
The reading is now displayed so the result of the cal request can be observed. The
reading should be stable. Click the button to return to the previous menu.
1sensor
50BOTTLE
Enter the channel number you wish to
calibrate.
Enter the calibration gas value, this will be
marked on the gas bottle and enter.
Repeat this sequence if you are not within +/-2% of the gas bottle value.
This sequence first indicates if the zero operation passed or failed, then the new detector reading then the option to end and return to the engineer menu. This sequence effectively allows the engineer to observe the new detector zero point before exiting.
Bottled Nitrogen or Instrument grade zero air
Regulator to deliver a fixed flowrate (typically between 0.5 to 1 L/min)
Note: the concentration marked on the label. Ensure it is of the correct type for the detector being calibrated. The concentration should typically be 50 to 90% of the detector range.Calibration gas should have a humidity between 0-90%RHRefer to EN 600179-20-1 for gas concentration guidance.
Calibration gas.
CalibrationZeroGasGas
20% LEL
Troubleshooting
Fault of electric circuit Please contact IGD
Warm up is not finished Wait till warm up is finished
Sensor is overdue service
and calibration
Please contact IGD for
service and calibration
Possible fault Possible reason Possible solution
The detector cannot
be turned on
No power supply Connect power supply
Panel failure Please contact IGD
No response to the
gas Electrical Fault Please contact IGD
Inaccurate indication
Damaged sensor Please contact IGD
Sensor fault indication Sensor fault Please contact IGD
Fault indication
Error Message Reboot system
Error Message after re-
bootPlease contact IGD
Minus gas level
displayed Gas sensor drift Calibrate zero point
Standard accessories Supplied
1 x Terminator Set (5 off)
1 x Diode Pack1 x Snubber
1 x Resistor Pack
Battery Care
Installation: The batteries will come pre-installed but will be disconnected to prevent battery drain.
They should be connected before the panel is connected to the mains supply.
Maintenance: Batteries should be checked at each 6 monthly service visit to ensure full
functionality. Batteries have a life of approx. 5 years dependant upon usage.
For control panels with the internal battery backup the following battery care is recommended:
Battery Backup units and Power Booster units are available.
Recommendations for maintenance after measuring range is exceeded
Allow to stabilise in clean air or use instrument air at 0.5L/Min for 4 hours. If reading is greater then
5% LEL after this period replace otherwise re-zero and calibrate
28
Accessories
Part Number Description
5083101 Beacon Sounder Amber/Red
508150 Beacon Sounder Red
5083160 Beacon Sounder Blue
401101B Cal Adaptor (Tocsin 103)
401101Z Cal Adaptor (Zirconia)
401103 Cal Adaptor (MK5/6)
4011109 Gas Adaptor (TOC-30, TOC-10)
401451 Splash Guard (Tocsin 103)
401452 IGD Splash Guard
401465 Protection Filter Disk
5110101 Remote Gassing Port
5134601 40mm Stop Button
5138601 Collector Cone Ring Lock
5138701 T103 Splash Guard
5138801 `Collector cone kit (MK6)
TOC-GLAND M20 Snap fit cable glad
5925801 Universal Pole Clamp
TOC-750-DIO Free wheel diode pack
TOC-750-HMI Remote HMI display
TOC-750-IO2 8 Channel Relay Card
TOC-750-SNB Contact Suppressor (Snubber)
TOC-750-TRM Terminator set
TOC-GAS-KIT Bump Test Kit
5137201 Professional Calibration Kit 1
5142301 Professional Calibration Kit 2
5124601 Professional Calibration Kit 3
Recommended